Welcome Message

Welcome Message:

It is a great pleasure and honor to welcome you with a warm Invitation to attend the “ World Congress and Expo on Cell & Stem Cell Research” during September 13-15,2018 in Paris, France.Which includes prompt keynote presentations, special sessions, Workshops, Symposiums, Oral talks, Poster Presentations, and Exhibitions.

Allied Academies welcomes all the attendees, speakers, sponsors and other research expertise from all over the world to the ”World Congress and Expo on Cell & Stem Cell Research” Which is going to be held during September13-15,2018, Paris, France.

Outstanding speakers and scientists of Stem Cell Biology, Stem Cell Transplantation, Tissue Engineering, Stem Cell Genetics and Therapeutic Cloning from around the globe are expected to share their knowledge. The gathering may be an occasion that makes a perfect stage to share information and trending topics on Stem Cells. The participants can confirm their participation by registering for the conference along with your colleagues. Avail the early bird offer.

About Conference

Allied Academies is an established and reputed publisher which started publishing in the year 1994. At first, the focal point of the gathering was to sort out meetings and publish articles in the domain of Business and Administration, with time the publisher expanded the subject scope and presently focusing on other subject areas.

Stem Cell 2018 Conference is to spread knowledge, awareness, and education about the recent advancement in the Stem Cell Research and development of a new treatment to reduce the death rate because of various blood diseases.

This three days conference will abode pivotal points on Stem Cells and its techniques for diagnosis of molecular shambles. The cardinal Theme of this Conference Breaking Down Barriers through Stem Cells canvases an extensive dimension of imperative sessions.

Meet Eminent Experts and Influencers Face to Face

Worldwide Networking and Business Opportunities

Learn how to take advantage of the current Stem Cell market to maintain and grow your business from the leading experts in the field of stem cells.

Scientific Sessions

Scientific Sessions:

We invite all the participants across the globe from leading Universities, Research laboratories, Laboratory Technicians and all interested participants to share their experiences in the World Congress and Expo on Cell & Stem Cell Research during September 12-15, 2018 at Paris, France with the theme "Breaking Down Barriers through Stem Cells".

This Conference covers a huge topic on Cellular and Molecular Biology, Cell Fate Determination, Stem Cells, Stem Cell Banking, Stem Cell and Regenerative Medicine and various therapies in stem cells. Stem Cells works on a multidisciplinary approach and dispense the complete pattern of relevant basic research mostly in Eastern Europe. This conference can create a matrix between research scholars of different streams such as Cell Biology, Molecular Biology, and Medicine when they meet in a single conference of Stem Cell.

Cell biology is the study of cell structure and function, and it revolves around the concept that the cell is the fundamental unit of life.Cell biology explains the structure, organization of the organelles they contain, their physiological properties, metabolic processes, signaling pathways, life cycle, and interactions with their environment. This is done both on a microscopic and molecular level as it encompasses prokaryotic cells and eukaryotic cells. Knowing the components of cells and how cells work is fundamental to all biological sciences. On the whole, cell biology focuses on the structure and function of a cell, from the most general properties shared by all cells, to the unique, highly intricate functions particular to specialized cells. Research in cell biology is closely related to genetics, biochemistry, molecular biology, immunology, and developmental biology.

Cell Fate Determination is mainly focused to understand how a particular cell (or embryo) develops into the final cell type (or organism), essentially how a cell's fate is determined.The development of new molecular tools including GFP and major advances in imaging technology including fluorescence microscopy have made possible the mapping of the cell lineage of Caenorhabditis elegans including its embryo.This technique of fate mapping is used to study cells as they differentiate into their final cell fates. Merely observing a cell as it becomes differentiated during embryogenesis provides no indication of the mechanisms that drive the specification. Therefore, the addition of molecular manipulation techniques, including gene and protein knock downs, knock outs and overexpression, along with live cell imaging techniques has been transformational in understanding what mechanisms are involved with cell fate determination.

The cell cycle is the sequence of events that occur in a cell leading to its division and duplication (replication) that produces two daughter cells. In unicellular organisms which lack a cell nucleus, the cell cycle takes place by a process called binary fission. In normal cells, the cell cycle is controlled by a complex series of signaling pathways by which a cell grows, replicates its DNA and divides. The Cell Cycle or Cell-division Cycle is a vital process by which a single-celled fertilized egg develops into a mature organism, again the process by which hair, skin, blood cells, and some internal organs are revived.

Molecular cell Biology thoroughly focuses on the determination of cell fate and differentiation, growth regulation of cell, Cell adhesion and movement, Intracellular trafficking. The relationship of signaling to cellular growth and death, transcriptional regulation, mitosis, cellular differentiation and organogenesis, cell adhesion, motility, and chemotaxis are more mind-boggling subjects under Cellular and Molecular Biology. Molecular biology investigates cells, their characteristics, parts, and chemical processes, and gives careful consideration to how particles control a cell’s activities and growth.To understand the behavior of cells, it is vital to add to the molecular level of description an understanding on the level of systems biology.

Stem Cells are undifferentiated Cells which are found only in the multicellular organisms and which can give rise to a number of cells of the same type.One of the most important properties of the stem cells which make it unique from other cell types is their ability to Self-Renew. Stem cells have the potential to develop into various cell types in the body during early life and growth and give new cells for the body as it gets old and will replace specialized cells that are damaged or lost.There are different kinds of stem cells that originate from different regions of our human body.

Stem cell therapy is a promising methodology for overcoming the impediments of current treatment strategies.Stem Cell Therapy (SCT) is used to treat various diseases by using stem cells. These stem cells can be taken from various sources based on their origin and used to conceivably treat more than 75 diseases, including neuromuscular and degenerative diseases.This Stem cell therapy enables the scientist to isolate and culture Embryonic stem(ES) cells, to produce stem cells by a technique called as somatic cell nuclear transfer to create the induced pluripotent stem cells.

Stem cell banking offers the chance to offers the opportunity to cryogenically save Stem Cells at their most intense state for later use in these applications.Stem cells are discovered and used from different regions of the body such as the peripheral blood, bone marrow, and the umbilical cord.Among these sources, Umbilical cord blood is thought to be a prepared wellspring of stem cells and can be protected amid labor and used for pharmaceuticals when required.Stem cells taken from the blood in the remaining segment of the umbilical cord and placenta are known as umbilical cord blood (UCB) stem cells and the process of collecting it is called an umbilical cord banking. stem cells extracted from cord blood are utilized proficiently in the treatment of blood-related conditions, for example, Thalassemia, Leukemia, Lymphoma, Neuroblastoma and many more.Hence saving cord blood are used to save many lives. cord blood stem cells have been utilized for more than 25 years in 35000 transplants over the world.

Adult stem cells are also called as somatic stem cells.These stem cells are used to maintain and repair the tissue in which they are found.They are found in children as well as adults.There are different types of adult stem cells based on their origin of tissues.Pluripotent adult stem cells which can be found in umbilical cord blood and other tissues.Bone marrow is very rich in adult stem cells.The quantity of bone marrow stem cells declines with age and is greater in males than females during reproductive years.Adult stem cell treatments have been effectively utilized for a long time to treat leukemia and related bone/blood diseases through bone marrow transplants.Adult stem cells are likewise utilized as a part of veterinary pharmaceutical to treat ligament and tendon injuries in horses.

Human Embryonic stem (ES) cells catch the creative ability since they are Immortal and have a relatively unlimited developmental potential.Embryonic stem (ES) cells are the cells of the inner cell mass of a blastocyst, an early stage embryo.These Embryonic stem cells are produced from embryos created by in vitro fertilization (IVF), a procedure in which oocytes and sperm are put together to allow fertilization to occur in a culture dish.By these procedures, scientists have produced some basic protocols for the direct differentiation of embryonic stem cells into specific cell types.These resulting cells produced from Embryonic stem cells can be used for treating diseases include diabetes, traumatic spinal cord injury, Duchenne's muscular dystrophy, heart disease, and vision and hearing loss.

Tissue engineering is an emerging interdisciplinary field, occupying a major position in the regenerative medicine that aims at restoring lost or damaged tissues and organs with use of cells.Just about twenty years have gone since the coming of the tissue building, which utilizes cells, scaffolding, and development factors for regeneration of neotissues. The number of investigations on tissue engineering is as yet expanding immensely.Tissue scaffolding is intended to impact the physical, chemical and biological condition surrounding a cell population.Tissue engineering/regenerative medicine strategies require communication and mix with tissue and cells through joining of proper physical and cell signals. In this way, consideration of changing elements, such as biologically active proteins and DNA are critical to success.

Regenerative medicine objective at helping the body to form new functional tissue to supplant absent or Damaged ones.Regenerative medicine influences the use of tissue engineering and stem cell technology.Embryonic stem cells (ESC) are pluripotent and they can differentiate into all germ layers. Non-embryonic stem cells (non-ESC) are multipotent. The capacity for potency and the relative simplicity to isolate and grow these cells are significant properties for regenerative medicine.The ability to isolate genetically and phenotypically stable, pluripotent cells from amniotic fluid-derived stem cells have a great impact on regenerative medicine.Fat tissue is abundant and contains a vast number of cell and it is more easily attainable.Hence the use of fat cells opens large and promising perspectives in creating regenerative medicine.The omentum is a membranous twofold layer of fatty tissue that covers and supports the digestive tracks and organs in the lower abdominal area.This omentum is a source of neovascularisation and it plays a huge role in regenerative medicine.

Stem Cells (SCs) have been contemplated for a considerable length of time and huge propels have been made with respect to stem cell capacities and potential applications in various natural and bio-medical areas, for example, organ physiology, tumor pathology, maturing, and regenerative medicine. The idea of a particular micro-environment or "niche" that is required for Stem cells to work developed over three decades back.A few thoughts have been advanced to clarify stem cell lineage and fate determination. Current investigate is centered around the microenvironment or "niche" of stem cells.A Stem Cell niche is an area of a tissue which provides an optimum micro-environment, in which stem cells are present in an unspecialized and self-renewable state.Cells present in the stem cell niche interact with the stem cells to maintain them or encourage their differentiation.

Stem cell transplantation is used for the treatment of cancer and also in treating the diseases associated with blood.In this case, the patients are always treated with the bone marrow transplant.Because the stem cells were normally originated from bone marrow.Hematopoietic stem cells (HSCs) are Stem cells which are produced from the process of Haematopoiesis.The hematopoiesis is the process by which all mature blood cells are produced.They are derived from Mesoderm and are located in Red Bone Marrow.Hematopoietic stem cells(HSCs) has the potential to self-renew and replace the cells and save an individual without HSCs.

Pluripotent Stem Cells are master cells. They’re able to make cells from every one of the three essential body layers, so they can conceivably deliver any cell or tissue the body needs to repair itself. This “master” property is called Pluripotency. Like all stem cells, pluripotent stem cells are also able to self-renew, meaning they can perpetually create more copies of themselves.There are different types ofPluripotent Stem Cells and some of the main pluripotent stem cells are induced pluripotent stem cells and embryonic stem cells.

Researchers have found approaches to take a normal cell, for example, a skin cell, and "reconstruct" it by introducing several genes that converts it into a pluripotent cell. These genetically reconstructed cells are known as induced pluripotent cells, or iPS cells.iPS cells offer incredible therapeutic potential. Since they originate from a patient's own particular cells, they are genetically coordinated to that patient, so they can eliminate tissue matching and tissue rejection issues that correctly hinder effective cell and tissue transplantation. iPS cells are likewise an important research instrument for seeing how unique ailments create.

Therapeutic cloning is also called as Somatic Cell Nuclear transfer.Unlike, Reproductive Cloning, Therapeutic Cloning does not result in the creation of a human being. It is used to provide healthy stem cells to replace diseased tissues in the body.Therapeutic Cloning involves the production of stem cells from the replicating human embryos.Most clones of these stem cells are delivered through somatic cell nuclear transfer.In this process, the researcher utilizes a little needle to pull DNA material from the nucleus of a donor cell and move it into an empty egg.Therapeutic cloning could enable a person's own particular cells to be utilized to treat or cure that person disease, without danger of presenting outside cells that might be rejected.The main use of Therapeutic cloning is to treat the deadly disease like diabetes and Parkinson's disease where the specific type of cell has died.

Cancer stem cells are turning into a prominent focus of cancer research.Because the scientists believe that they may be integral to tumor formation.A growing body of evidence indicates, however, that a subset of cancer cells, called cancer stem cells (CSCs), may hold a key to controlling cancer and potentially achieving durable clinical responses.Tumor development must be started by a subset of cells known as cancer stem cells (CSCs), which can self-renew and differentiate into non-tumorigenic offspring that involve the tumor mass.Therefore, Finding of specific therapies targeted at CSCs holds hope for improvement of survival and quality of life of cancer patients, especially for patients with metastatic disease.Researchers are using modified stem cells as a breast cancer treatment option.

Mesenchymal stem cells (MSC) are Multipotent stromal cells which are basically a cluster of cells present in bone marrow stroma and the stroma of different organs with the ability for mesoderm-like cell differentiation into, various types like osteoblasts, adipocytes, and chondrocytes. MSC is being used in the center for the cure of a variety of clinical conditions.The multipotency of MSCs has led to their application in regenerative medicine and tissue repair.

Stem cell research holds tremendous promise for medical treatments.Stem cell-based cell therapies carry the huge potential for curing a number of human diseases such as cardiovascular disease, stem cells in bone regeneration, stem cells in the treatment of eyesight, diabetes and also in the treatment of neurodegenerative disorders.Stem Cell Medication is mainly used to amplify your body's natural repair process, helping individuals avoid invasive surgery and joint replacement.Stem cell therapy for knees is a minimally invasive procedure that can possibly diminish inflammation, stop the growth of the arthritic damage, repair joint cartilage, and delay or avoid knee replacement surgery.An entire line of Stem Cell products for ES and iPSC look into in various zones from malignancy to diabetes to neurogenerative ailments/CNS issue.

Genetic Engineering of Stem Cells for improved Stem-Cell Therapy.Genetic engineering, with an plenty of Strategy to induce gene expression in an exact and well-controllable manner, is particularly attractive for this purpose.There are two main strategies for inducing transgene expression in therapeutic cells: transient and permanent expression. In many instances, including stem cell trafficking and using cell therapy for the treatment of acute disease with a short curative process, transient transgene expression may be an ample and excellent approach.

Bioinformatics is the application of information technology to the field of Stem Cell Biology and Regenerative medicine.Bioinformatics involves the use of computers to collect, organize and use biological information to answer questions in fields like evolutionary biology.The fields of stem cell biology and regenerative medicine research are fundamentally about understanding dynamic cellular processes such as development, reprogramming, repair, differentiation and the loss, acquisition or maintenance of pluripotency.Bioinformatics tools were employed to understand the regulation of gene expression at the level of transcription, epigenetics and chromatin structure.Bioinformatics underpins and enables research across the life sciences.

Gene Therapy is an experimental technique which involves the therapeutic delivery of the normal gene into cells in the place of a defective gene in order to correct genetic disease and hereditary diseases in which a defective allele is replaced with a functional one.Gene therapy has a great potential to prevent and eliminate hereditary diseases such as cystic fibrosis and hemophilia and its use as a possible cure for heart disease, AIDS, and cancer.Stem Cells are being used as a vehicle for gene therapy.Embryonic Stem(ES) Cells, can be genetically modified to introduce the therapeutic gene.

Stem Cell Rejuvenation is mainly discovered for the peoples who are more than 60 years of age or for the peoples who have the dysfunctions of tissues, organ and organ systems and the whole organism which normally happens due to the process of aging.Aging results from the reduced function of stem cells.Hence, the researchers have discovered a stem cell-based treatment where the old tissue stem cells can be rejuvenated for the purpose of maintaining the old-organ function by youthful re-calibration of the environment where stem cells reside.The Recent Research Proves that the transplantation of young blood vessel cells rejuvenates aged stem cells in mice, boosting older system function.

Market Analysis

Europe Market:

Europe Stem Cell Market was worth USD 2,862.37 million in 2015 and estimated to achieve USD 5,345.25 million before the finish of 2022 with a CAGR of 12.10%.The European has been an active player in the field of stem cell research for over the last decade, as reflected by reports published in 2010, 2013 and 2015.The data introduced comprises of a report on the current legitimate scene crosswise over 30 European nations, supplemented by a choice of ESF activities concentrating on stem cell research and important European yields from fundamental and clinical research in various healthcare fields.Many different kinds of advancements around stem cell research look into keep on emerging in Europe.The aim of the present ESF report is to productively add to the ongoing debate and to give confirm that will help inform future policy and funding decisions impacting human stem cell research in Europe.The Europe region is considered to be one of the most appealing and winning stem cell market next to North America in the global stem cell market.

The worldwide stem cell market size measure was evaluated at USD 6.8 billion out of 2017. Factors that have influenced the development of this market are a great achievement of regenerative pharmaceutical and additionally exponential development in ongoing stem cell-based research.

Topographically, the worldwide stem cell market has been divided into five locales: North America, Europe, Asia Pacific, Latin America, and the Middle East and Africa.

The Global Stem Cell Market is anticipated that would achieve USD 15.6 billion by 2025, developing at a CAGR of 9.4%.

Application wise regenerative medicine is evaluated to hold the substantial share of the revenue.Expansion in research studies that aim at Widening the utility scope of associated products is anticipated to drive the market growth.Researchers are engaged in Finding novel methods to create human stem cells. This is to address the expanding interest for stem cell production for potential investigation in disease management. This factor is positively anticipated that would quicken the advancement of regenerative medicine, thus driving industrial growth.

USA:

The U.S Stem Cell Market was worth USD 3,158.2 million in 2017 and estimated to achieve USD 6,242.6 million before the finish of 2022 with a CAGR of 12.72%.Organizations promoting putative stem cell interventions have proliferated across the U.S. The country has 351 organizations engaged in direct-to-consumer marketing of stem cell interventions offered at 570 clinics.The relative wealth of U.S. organizations marketing ''amniotic'' and ''placental'' stem cells was outstanding.The U.S. organizations promoting stem cell interventions claim to treat an extensive variety of diseases and injuries, as well as publicizing undifferentiated organisms for corrective applications, ''antiaging,'' and different purposes.

Asia-Pacific:

Asia-Pacific Stem Cell Market was worth USD 2,616.1 million out of 2016 and surveyed to accomplish USD 5,536.2 million preceding the complete of 2022 with a CAGR of 3.72%.The market is depended upon to grow rapidly in perspective of the expansive inventive work which is being done.Some of the key drivers of Asia-Pacific undifferentiated organism promote are improved financing from the various relationship for innovative work for neglected therapeutic needs, developing industry consideration on stem cell research, and creating mindfulness over the world about Stem cell treatments.

Middle East:

The Middle East and Africa Stem Cell Market was worth USD 909.8 million in 2017 and assessed to achieve USD 1,904.9 million before the finish of 2023 with a CAGR of 12.48%.The key drivers of the Middle East and Africa stem cell market are enhanced funding from different government and private associations for research and development for unmet medical needs, and developing industry attention on stem cell research about, and expanding worldwide awareness about stem cell therapies.

Why Paris, France?

Paris is the capital and most famous city in France. Since the seventeenth century, Paris has been one of Europe's real focuses of reserve, trade, fashion, science, and the arts. The Paris Region had a GDP of €649.5 billion (the US $763.3 billion) in 2015, speaking to 30.6 percent of the GDP of France.According to official evaluations, in 2014-15 the Paris Region had the third-most lifted GDP on the planet and the greatest commonplace GDP in the EU.Paris which is one of the most visited cities in the world has something for everyone that is from history and culture to the aperitive food within living memories.Europe is presently seeing advancements and open deliberations that will impact regulation and open financing of stem cell research and development for quite a long time to come.

The European Science Foundation (ESF) is an autonomous, non-administrative association that advances joint effort in scientific research, funding of research and science policy across Europe.

Established in 1974, it speaks to 79 national funding bodies, inquires about performing organizations, institutes and learned societies from 30 nations. It makes a common platform for cross-border collaboration in Europe and influenced significant commitments to science globally.

Importance and Scope:

Stem cells carry an immense potential for treating a number of human diseases.The use of stem cells for creating tissues and organs grafts holds gigantic promise to satisfy the largely unmet need for organ transplants and to enhance the quality of life for many patients.stem cells can be coordinated to create specific cell types and can be utilized to supplant ailing or degenerating tissues.The greatest advantage of this procedure is that it overcomes graft-to-host incompatibility.Stem Cell Therapy (SCT) is the treatment of different disorders, non-serious to life-threatening, by utilizing stem cells. These stem cells can be secured from a variety of sources and used to conceivably treat a large number of disorders, including neuromuscular and degenerative disorders.This Conference intends to find progress in health practice, administration and education in relation to health inconsistencies and a broadness of different themes.